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.Collectively, the resultant positive electrical charged copper ions (642a xxx 642n) added together produces Positive Voltage Potential (629) being electrically applied to choke-coil (56); whereas, the "Liberated" negative electrical charged electrons (64Ia xxx 64In) added together provides Negative VoltageStanley A.Meyer 7-14RE: VIC Matrix Circuit Memo WFC 426Potential (631) to the opposite end of Secondary Wire (52) being electrically connected to choke coil (62).Once Secondary Coil-winding (52) is de-energized by the removal (collapsing magnetic field during pulse off-time T2 of external Magnetic Field (71), the dislodged electrons (641a xx 641n) return to positive charged copper ions (642a xx 642n).terminating and switching off opposite voltage potential (629 - 631) when positive electrical state of the copper atoms changes back to net electrical charge of zero.Sustaining and maintaining the resultant induced Voltage Potential (Vo - Vn) without "Electron Discharged" (inhibiting electron flow) through Choke Coil (62) while, at the same time, inhibiting (preventing) any additional or other electrons from entering into Secondary copper wire-zone (52) by way of Choke Coil (56) is herein called "Electron Bounce Phenomenon" (EbP), as illustrated in (700) of Figure (7-9).Electrically Interlinked serially together, Electron Bounce Phenomenon (EbP) , VoltageCoefficient of Inductance (Fll/F12), Voltage Coefficient of Capacitance (Cdl/Cd2), VoltageCoefficient of Resistance (Rsl/Rs2), and dielectric Coefficient of Water resistance (Re) allows Voltage Potential (Vo - Vn) of opposite electrical polarity to perform work (SS' _ 617 _ RR') without amp influxing '" thus, not allowing the introduction of electron flow into Hydrogen Fracturing Process (90) of Figure (5-5) during Voltage Stimulation (SS' - 617 _ RR').causing"electron clustering" (641a xxx 641n) to take place within Copper Wire Zone (52) during pulse on-time (Tl).inhibiting "electron flow" to maintain opposite voltage potential (66/E9 _ 67/E10) across Resonant Water Gap (616) during the process of converting water-fuel (85) into instant thermal explosive energy (gtnt).therefore, producing a physical force-yield (Fy) during gas-ignition (70) of Figure (4-5) which is directly related to the liquid volume of water (85) per injection cycle and applied Resonant Voltage Intensity (Yo -Vn), as illustrated in (590) of Figure (6-2) as to (90) of Figure (5-5).Of course, in practical terms of component interaction, a minute amount of amp leakage ispresent and does occur due to Electronic Component Limitations but is negligible as to the overall performance of the Hydrogen Fracturing Process (590) of Figure (6-2) when being subjected to either one of traveling Electrical Voltage Wave-forms (730a - b - c) of Figure (7-12), see Voltage Graph (750) of Figure (7-14) once again.Voltage Amplitude Switch-OffVoltage levels of variance (Va xxx Vn) is achieved by simply switching-in or switching-outthe member of Secondary Coil-cavities (505a xx 505n) (see 740 of Figure 7-13) in directStanley A.Meyer 7-15RE: VIC Matrix Circuit Memo WFC 426relationship to Taper Resonant Voltage surfaces (E9/l0) of Figure (6-2) which acts and perfonns as a "Voltage Amplifier" when Compressional Wave-form (B) of Figure (7-12) is intensified at Exit Port (32) of Figure (6-2).Switching the member of Secondary Coil-Array (505a xxx 505n)maximizes electrical power transfer from Primary Coil (26) to Secondary Coil (52) by keeping Voltage Amplitude of Pulse-train (49a xx 49n - T3 - 49a xxx 49n) constant.Mode of OperabilityThe established "mode-of-operability" of VIC Coil Assembly (580) of Figure (6-1), now, allows Voltage Potential (Vn) of opposite voltage polarity (66/SS' - 67/RR') to increase and be attenuated up to and beyond 20 Kilovolts while inhibiting and restricting amp leakage in the milliamperes range.establishing operational parameter of utilizing Opposite Electrical Attraction Force (SS' - RR') of high voltage intensity (Vn) to instantly release thermal explosive energy (gtnt) from natural water.Voltage Compressional Wave-form (35b) and Expanding Voltage Waveform (35c) increases the intensity of applied pulsating opposite electrical attraction force (55' -RR'a xxx SS' - RR'n) even further during each new pulse-cycle (T2 next T2) across watergap (616).increasing Thermal Explosive Energy-yield (gtnt) to higher energy-levels (gtnta xxx gtntn) beyond applied excitation voltage (Vn) by simply altering Voltage Surfaces (35b/35c) as in reference to Linear Voltage Surfaces (35a), as illustrated in (730) of Figure (7-12).Pulse Off-time (T2) of Fjgure (7-8) as to (620) of Figure (7-1) is adjusted to compensate for the rise and fall of magnetic coupling field (71) to produce applied Unipolar Waveforms (64a xxx 64n) entering into Wave-guides (35a/35b/35c).Less water contaminants nets even higher energy-yield (gtnta xxx 85a - 85h xxx gtntn), as illustrated in Water Chart (760) of Figure (7-15).In terms of thermal explosive energy-yield (gtnt) under dynamic pressure of compression approximately 7.4 (µl) microliter of a liquid-volume of a water droplet per injection cycle is all that ~s required to run the Dune Buggy 1600cc 50hp VW I.C.engine at 65 m.p.h.on the open road; whereas, a typical 325 hp diesel I.C.truck-engine would require about 48.1 (µl) microliters of a water droplet per injection cycle to accomplish the same open road performance.(see WFC Water vs Gasoline Energy Content Equations (memo WFC 429).Stanley A.Meyer 7-16RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-17RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-18RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-19RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-20RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-21RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-22RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-23RE: VIC Matrix Circuit Memo WFC 426Stanley A.Meyer 7-24Memo WFC 427Voltage Wave-GuidePropagating "Resonant Action"By Voltage Tickling of State SpaceThe "Mode of Operability" of determining the "OperationalParameters of adjusting thermal explosive energy (gtnt) exitingWater Fuel Injector nozzle-port is directly related to the typeof Voltage Pulse Train being used and the geometricalconfiguration of the Resonant Cavity.In terms of Voltage Pulse Wave-form, several ElectricalOperational Parameters exists: Dynamic State Space whichvaries Electrical Stress Intensity continually during UnipolarVoltage Pulse formation and Static State Space being anelectrical condition by which Electrical Stress is being heldconstant during a certain time-period
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